Technique for Latex Injection and Reuse of Human Heads Preserved in Formaldehyde

Overview

Journal J Neurol Surg B Skull Base

Publisher Thieme

Date 2019 May 31

PMID 31143570

Citations 4

Authors

Ricardo L L Dolci

Livia Castellari Burchianti

Alexandre Bossi Todeschini

Andre Fanhani Lopes

Mirna Duarte Barros

Americo Rubens Leite Dos Santos

Paulo Roberto Lazarini

Affiliations

Soon will be listed here.

Abstract

Understanding the anatomy of the skull base is paramount for every skull base surgeon, particularly in light of the expanded endoscopic endonasal approaches, and of the refined surgical technique used in both medial and lateral approaches. A comprehensive knowledge of anatomy is the cornerstone for a safe surgery, maximizing resection and minimizing complications. The best study method is the careful dissection of fresh human cadaveric heads in a well-equipped anatomy laboratory. In this study, we describe our protocol for preparing cadaveric specimens without vascular injection, which had been preserved in a formaldehyde solution after treating them with a dimethyldioctadecylammonium chloride/distearyl dimethyl ammonium chloride solution (commercial fabric softener) and injecting the vascular system with latex. Six cadaveric specimens underwent our treatment and subsequent injection of the vascular system and dissection. All specimens showed a good penetration of the latex and a clear improvement of the malleability of the tissues was noticed. The authors agree that this technique improved the quality of the head and facilitated studying. We consider this an effective treatment with latex, reaching small caliber vessels, and a greater malleability and flexibility of tissues, allowing better dissections, and greater anatomical exposure, making them suitable for skull base training, study, and research.

Citing Articles

Toward an optimal cadaveric brain model for neurosurgical education: assessment of preservation, parenchyma, vascular injection, and imaging.

Mignucci-Jimenez G, Xu Y, On T, Abramov I, Houlihan L, Rahmani R Neurosurg Rev. 2024; 47(1):190.

PMID: 38658446 DOI: 10.1007/s10143-024-02363-7.

Latex vascular injection as method for enhanced neurosurgical training and skills.

Perez-Cruz J, Macias-Duvignau M, Reyes-Soto G, Gasca-Gonzalez O, Baldoncini M, Miranda-Solis F Front Surg. 2024; 11:1366190.

PMID: 38464665 PMC: 10920354. DOI: 10.3389/fsurg.2024.1366190.

Combined cone-beam CT imaging and microsurgical dissection of cadaver specimens to study cerebral venous anatomy: a technical note.

Krogager M, Dahl R, Poulsgaard L, Fugleholm K, Sehested T, Mikkelsen R Surg Radiol Anat. 2023; 45(9):1177-1184.

PMID: 37542573 PMC: 10514096. DOI: 10.1007/s00276-023-03195-8.

Latex-injected, non-decapitated, saturated salt method-embalmed cadaver technique development and application as a head and neck surgery training model.

Durongphan A, Suksantilap S, Panrong N, Aungsusiripong A, Wiriya A, Pisittrakoonporn S PLoS One. 2022; 17(1):e0262415.

PMID: 35051207 PMC: 8775333. DOI: 10.1371/journal.pone.0262415.

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